Preliminary Safety Analysis of CH HCSB TBM
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1 Preliminary Safety Analysis of CH HCSB TBM Presented by: Chen Zhi SWIP ITER TBM Workshop, China Vienna, Austria, IAEA, July 10-14,
2 Introduction Calculation model Outline Review of CH HCSB TBM preliminary safety analysis Summary 2
3 Introduction Safety has been a part of fusion design and operations since the inception of fusion research. Safety considerations are a part of the design process to ensure that the test blanket modules(tbm) do not adversely affect the safety of ITER operation. Safety analyses for Chinese ITER TBM design with helium-cooled solid breeder (HCSB) concept for testing in ITER device have been performed and submitted it to international test blanket work group (TBWG). Further safety analyses on CH HCSB TBM design are ongoing. 3
4 For 1/4 ITER Port For 1/2 ITER Port Structure View of Chinese ITER Test Blanket Module Design 4
5 Calculation Model Plasma First wall Cooling pipe neutron multiplier breeder material He Shield He 5
6 Input Conditions for Safety Analysis Dimension: 664mm 890mm 670mm (1/4 C port) Codes: BISON3.0/FDKR Operation power: 500MW Operation factor: 22% Operation time: 0.53y Neutron wall load: 0.78MW/m 2 Material selection: Structure material: EUROFER Neutron multiplier: Be Tritium breeder material: Li 4 SiO 4 Coolant and purge gas: He 6
7 Review of CH HCSB TBM Preliminary Safety Analysis 7
8 Direction: The relevant safety analysis has to be consistent with the system safety analysis as presented in GSSR and French Nuclear Safety Authority (NSA) requests. Comments: Some results of safety analyses are reported in the CH TBM DDD. The related safety analysis of EM-TBM are ongoing, some results have been got. Safety working groups have been built in China for licensing, QA and safety report of CH HCSB TBM, which consists of China nuclear safety office, China environment protection office, nuclear design institute,and so on. A systematic approach (such as FMEA or similar approach) will be built immediately. 8
9 NT-TBM design: Decay heat and activation ; BHP analysis; Waste estimation; Preliminary LOCA analysis; Electromagnetic analysis; Tritium penetration analysis; EM-TBM design: Some Analyses Done Preliminary LOCA&LOFA analysis and electromagnetic analysis; Modeling, debugging and Preliminary application by RELAP5/ MOD3.2 ; 9
10 Activity and Decay Heat Analysis At shutdown, the total decay heat is ~ MW with a contribution of MW and MW from structure material and Li 4 SiO 4, respectively. Total activity generated and contribution from each material A total activity of Ci is attained at shutdown with a contribution of Ci from the structure, Ci from the Li 4 SiO 4. Total afterheat generated from each material 10
11 Main Nuclides for Contribution to Activity Nuclides Fe 55 Cr 51 Mn 54 Mn 56 W 187 Half life 2.7 yr 27.7d 312 d 2.56 h 23.9 h Activity, afterheat and BHP all have nearly relation with activation products. The afterheat is primarily due to the decay heat of activated elements, specially Mn56, because decay energy of Mn56 per decay is 2.53MeV. Decay heat of Mn56 is 86.2% of all decay heat. 11
12 BHP and WDR Analysis According to the US 10CFR61 regulation, if the waste contains a mixture of nuclides, then the waste disposal must meet the requirement of WDR<1. According to Class C limits of it, structure material is qualified for shallow land burial. The waste disposal rating (WDR) Nuclide 59 Ni 93 Zr 94 Nb Half life 75ky 1.5My 20ky WDR Total BHP generated from different material zones From a fraction of an hour up to 1,000 years after shutdown, the total BHP is attributed to the contribution from the structure. The BHP levels after 1 hour, 1 day, 1 year, 10 years, and 100 years are km 3 /kw, km 3 /kw, 9.61 km 3 /kw, 0.57 km 3 /kw, and km 3 /kw, respectively. 12
13 Tritium Permeation Control * Tritium production rate: g/day Tritium extraction: He-H 2 (0.1% vol. H 2 ) Permeation barriers : Al 2 O 3 Tritium permeation release to the environment: less than 50µg/FPD Note: This part is completed by China Academic of Engineering Physics, China 13
14 Reference Accidents Analysis In-vessel TBM coolant leak analysis to demonstrate: A small pressurization of first confinement barrier (i.e., ITER VV) Passive removal of TBM decay heat Limited chemical reactions and hydrogen formation Coolant leak into TBM breeder or multiplier zone analysis to assess: Module and tritium purge gas system pressurization Chemical reactions and hydrogen formation Subsequent in-vessel leakage Ex-vessel LOCA analysis to determine: Pressurization of TBM vault Behavior of TBM without active plasma shutdown Complete loss of TBM active cooling 14
15 Preliminary LOCA Analysis* Pressure transients from different models vs. time LOCA analysis shows depressurization of the TBM helium coolant occurs within 10 to 15s. Contribution to the pressure build-up in the VV is small (17.8 kpa). Tritium and activation products released from the TBM into the VV are insignificant compared to the total amount mobilized from non-tbm components. The TBM FW temperature can be kept, after the disruption burst has decayed variant to the reference case, with postulated unlimited steam access to the pebble beds, the estimated hydrogen production is the order of g only and the chemical heat is negligible. * Note: This part is completed by Tstinghua university. Temperature changes of materials after the end of blow-down 15
16 Preliminary NT-TBM Electromagnetic Analysis* The simplified 3D model The maximum induced eddy currents under CDII The maximum stresses components of model B The maximum stresses of model A The EM torques of model A and model B The EM torques of the nine sub-modules 16 * Note : this part is completed by university of electronic and technology of China
17 Preliminary NT-TBM Electromagnetic Analysis(cont.) 17
18 Summary The radiological inventories of CH HCSBTBM, tritium inventories, decay heat, and waste disposal rating were investigated for the TBM concept. The radioactivity isotopes Fe-55, Mn-56, Cr-51 and W-185 dominate the radioactivity levels of TBM design. The waste disposal rating (WDR) depends on the level of the long-term activation. The results show that the WDR values are very low (<<1), according to Class C limits, these materials are qualified for shallow land burial. LOCA analysis shows that the effects is not serious under in-vessel loss of coolant. Electromagnetic safety analysis show that the structure design of HCSB TBM is reasonable based on EM safety analysis for the centered disruption. Futher research for CH HCSB TBM are ongoing. 18
19 19
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